Graphic solar instrument



Buy l2, i949., R. W. JUSTICE GRAPHIC SOLAR INSTRUMENT 2 Sheets-Sheet l Filed NOV. 14, 19.45

' INVENTOR,

ATTORNEY.

July l2, 1949.

R. W. JUSTICE` GRAPHIC SOLAR INSTRUMENT Filed NOV. 14, 1945 2 Sheets-Sheet 2 INVENTQR. 7 W

' ATTORNEY.

Patented July l2, 1949 site UNITED ,STATES @TENT FFIC GRAPHIC SOLAR IN STRUMENT Richard W. Justice, Belvedere, Calif.

Application November 14, 1945, Serial No. 628,548

(Cl. .i-44) 4 Claims. 1

This invention relates to graphic solar instruments.

Among the objects of this invention is to provide an instrument for predetermining the position of the sun relative to any given point lying along a particular parallel of latitude, at any given moment during the daylight hours, and which instrument will express the spatial relationship between the point and the sun at that moment in terms of the direction and path of the solar rays, and in terms of local apparent solar time for that given point.

Another object is to provide variations of such instruments, by means of which it will be posn sible to selectively predetermine the position oi the sun relative to any given point Whatever on the surface of the earth, at any time when the sun is visible from that point, and to express the spatial relationship between the sun and the given point at the given moment in terms of the direction of the solar rays and in terms of local apparent solar time for the given point.

Another object is to provide a transparent instrument which may be superimposed upon a drawing or other graph for utilizing predictable solar conditions throughout the hours of daylight throughout the days oi the year.

Another object of this invention is to provide an instrument which will give the `approximate slant and direction of the suns rays or the suns altitude and azimuth for localities at or near specied latitudes and for any longitude, at hourly intervals of local apparent time throughout the daylight hours each month of the year. It is commonly understood, for example in the almanacs and in nautical astronomy, that local apparent time is identical with local apparent solar time. For that matter, the simple term, apparent time, will be so understood.

This instrument as disclosed is susceptible to modications of the various indices depicted on the base sheet and rotary disc, adapting it to selected geographical locations available in a set of such instruments.

The instrument is predicated on the following established and accepted astronomical premise:

That from any point on the surface of the earth the sun, whenever visible, appears to move across the sky substantially from east to west.

That to any stationary observer the altitude and azimuth of the sun change constantly throughout the day, and on each day are slightly diierent instant for instant, from the day preceding or the day `following. At any given instant of time, altitude and azimuthof the sun, as

viewed from any given point, will not be the same as altitude iand azimuth of the sun as viewed from any other point. However, the suns altitude and azimuth 'when viewed from any given point at a given time will be substantially identical to the suns altitude `and azimuth when viewed by another observer from any other point lying along the same parallel of latitude, at some instant of time earlier or later on that same day. If the second observer is directly westward of the iirst observer, any certain condition of altin tude and azimuth will be manifest `to him some specic amount of time later than the same con dition was manifest to the i'lrst observer, and the interval of time between the instant when the position of the sun bears a certain specific relation to the first observer, and the moment lwhen ythe position of the sun bears a substantially identical relation to the position of the second observer will be equal to the number of hours, minn utes and seconds of longitude, not the distance, intervening between the meridians of the two observers. The converse of this is also true.

By denition, local apparent solar time, hereinafter abbreviated as L. A. S. T., for any point means time as determined by the `position of the sun with relation to that point, or, astronomically, :the hour langle of the sun with relation to 'that point, it follows that at each instant throughout the period of one revolution of the earth upon its axis that it is noon, L. A. S. T. for all points lying on some meridian of longitude, since from each of such points the sun appears higher in the heavens at that instant than it appeared one instant before, or after, and since such a condition occurs, `by definition, only at noon, L. A. S. T.

If We properly denne eleven oclocl: a. m., L. A. S. T. for a given point as that instant of `time precisely one apparent solar hour before noon, L. A. S. T., for that same point, and define one oclocl: p. L. A. S. T. as that instant precisely one apparent solar hour later than noon, etc., 4it follows that any numerically expressed instant of L. A. S. 'I'. for a given point :applies also to all points directly north or south of the given point.

From all the foregoing it is apparent that when this instrument gives correct readings for the suns laltitude and azimuth for some particular point lying any where on the surface of the earth, in terms of L. A. S. T. for that point, 'that the same readings will apply to any other point lying along the same parallel of latitude, in terms of L. A, S. T. for each respective point.` .Tt is a fur ther apparent that these same readings will appli v to no other points on the surface of the earth, since an observer travelling instantaneously from one pole to the other in direct line along the surface of the earth would .accomplish his journey within the same instan-t of L. A. S. T. for al1 points lying along that line, but would find himself in constantly changing relationship to the position of the sun.

A great number or instruments of :the nature of this invention wouldberequired to predetermine the direction of solar rays and the altitude and azimuth of the sun in terms of L. A. S. T. for all selected points, if extreme `accuracy. were required. Each instrument would serve only for points lying within a very narrowb'and ofA latitude. If the purpose of each. instrument is such that a predetermined degree'ofinaccuraoy is per# missible, then the number of instruments required to serve for thefentire earth can be limited.. Each instrument. maybe calibrated to regn ister -correct readings forpdesired 'points along a selected parallelof latitude, but may also be used for points withina certain band 4of .latitudecentered aboutv the selected parallel.

In this disclosure itis to be understood that all terms such as correct, identical,A etc., shall be taken'tc mean to within limits set. by the practical use for which this inventionis intended; but the earth hascertain involved "minor eccentricit'ies ofmovement relative to the sun which make the achievement of. absolute A'accuracy --inconsistent `with` the general purpose of the .present invention.

The drawings illustratingthis invention repre-v sent a particular Version of lthe instrumentcalibrated for all vpeints lying alongthe .parallel .of latitude approximately 37930 nor-th of the Equator, and may be varied for other pointanbyappropriate modification of the indices.-

In th'especiiicationand drawings the invention isv vdisclosed in its preferred form, but it maybe embodied in modifications within the spirit of. the invention as defined inthe claims following .the description.

In the two sheets of drawings:

Fig, 1 is a plan View of thestatonary base sheet having agraphic chart thereon,.representing Vthe horizon of the observer in accordance-with .this invention. l

Fig. 2 isa calendar disohaving date indices-and ray direotionalindicesthereon and adaptedto-be attached. to the base 4sheet withitsindices ycoaxial with the indices .on thebasesheet.`

Fig. 3is a plan view ofthe assembledbase-sheet and calendar discin operative relationon aneyelet holding them in axial relation-to-.eachother. The underlying indices are shown in dotted lines, indicating the transparency of the instrument.

Fig.- 4 is a diagrammatic forecast, .in accordance with this invention, showing the direction-of the sun rays at given dates and time.

In detail the structure.illustratedinllig l comprises the rectangular base sheet I preferably of transparent -vmaterial lsuch as plastic, lhaving Athe center hole.2 rtherethrough. This-sheet has the concentric lines 3 and 4 serving as confining boundaries for graduated segments such as 5,` 6, laid off in degrees from `zero at the northA to approximatelyvlZO.degreeseast and west as ona common protractor. Each division inthe-se segments representsthreedegrees and is appropriately markedfwith'fa numeral'. The zero point is identified by Uthelindexfmarked North. A Aline throughl the 'center exist-2 .:.passing.through.any

part of segments 5, 6, would represent a continuation of the line of azimuth of the sun at some moment of some day; the center 2 is considered as the position of the observer, and sheet l represents the horizontal plane of the observer.

The lower portion of the sheet I between the ends of the segments 5, 6, is bounded by deviating curved lines such as 'l leading toward the aXis 2 and marked at each end Sunrise and Sunset for the easterly and westerly line respectively.

The lower vportion of the sheet is further divided by eight deviating curved lines such as 8 and one vertical straight line 9. Those curved lines easterly of the vertical center line 9 being identified at each end by hourly markings from 8:00 a. m. through 11:00 a. m., and those westerly being similarly identied by markings from 1:00 p. m. through 4:'00 p. m. The straight north and south line 9 is identiiied by the word Noon.

Lines l, t and 9 shall be referred to a-s hour lines hereinafter, as each ofk these lines is merely an identifying connection between the small numeral enclosing circles such as l0.

The center of each circle lil represents Ia point which, considered` in connection with the iaXis 2,

forms one of a pair of the points which determine any particular radial line from 2. Each line so determined is .the line of azimuth of the sun at somefwhole hour of L. A. S. T. on some day,- and any line from the'axis 2 passing through the-center of any circle l0, represents the azimuth of the sun at Sunrise on some day,rif the circlel is one of those lying.L alongvthe line markedV Sunrise. Any such yradial line passing through another circle l0 repre-sentsthe 'azimuth of the sun at 8:00a. mi onv some day if'ithe circle-l0 is one `of thoselying alongtheline marked 8:00a. m; and

so on,

Each numeral I0 indicates,in degrees, the slant 4of the-solar rays ast'heyintersect the'horizontal plane ytangential to the surface of fthe-:earth `at the apoint Where the observation is made;

Eachnumeral ywithin some circle I' lyinggalong the -line marked l8:00 a. rn. represents .the .alti-v tude,lin degreesofathe sun at 8:00a. 'mxof some day.V Each such numeraly within a `circle l0 lying along a line marked 9:00 -a. m. representssthe slant indegrees ofthe sun rays at -9:00ra. m.-on someday,-and:so on.

Thecircular datedisk Il showninFigiZhas thezcenter holefl2, concentric with thexaxis A2, when vsuperimposed `on' the base sheet l I.` When assembled together by the eyelet .ltgi'they form the complete graphic solar meter.

The small circlesll 0, beside beingfgroupedralong thevarious deviatingfhour lines such as 1, 8,'- and 9, vare further located by beingJ each vazcertain distancefromitheaxis 2. Each? small circle lointended to relate to a certain: date is -locatedcat a iixedradial .distance'from the axis .2;y The circle I0 closest -to theaxis1-2 on 'each hourLli'ne el,y Brand 9,1relates-'to June 22;: The'circle I0 fonleach such hour line farthest from the axisrelates to December 22, and the other groupsfoffcircles Ill jointly and severally relate to-specif1cfdates,-w-ith allfcircles 'which are the vsame radial distance fromV center .2 Irelatingto the `same date Aor dates.

EachE circle l l)l is-soplaced withrespect to axis 2 that 'it identies itself fwith' acertain hour on a certainzdate; andis soplaced that'a-line from its center through' axis 2 bears a certainI angular relation: Itolthat portion of the northand south line whichfliesubelow thisaxissand coincides with noon hour.: linef9. This angular'. .relations and-i the numeral Within the-.circle lluareiindices:ofacertain known and accepted astronomical coordinates which apply to the geographical points for which the instrument is calibrated, and represent respectively the azimuth and altitude of the sun at a specic hour of L. A. S. T. on a specic date, for all points lying along the particular parallel of latitude for which the particular instrument is calibrated.

Fig 2 shows the transparent date disc Il, With the index arrow I4 and the spaced arrows l5 parallel to a line from the axis 2 to the index arrow l5, indicating the direction of the sun rays.

The circles such as I6 each represent a date, or, if so noted, each of two dates. This dual arrangement is possible because the astronomical cycle which governs the relative positions of the sun and the earth throughout the year is a semiyearly cycle with extreme conditions of altitude and azimuth occurring at the mid-summer and mid-winter solstices, and with average conditions occurring at the vernal and autumnal equinoxes, so that any given condition of altitude and azimuth, with the exception of extreme conditions, such as the solstices, occurs twice each year.

The inner most circle I6 noted June 22 on the disc ll is located precisely the same distance from the axis 2 as in the innermost circle lll on each hour line on sheet I is located from this axis 2. The outermost circle it noted December 22 on disc il is located precisely the same distance from the axis as the outermost circle on each hour line on sheet l is located from the axis. Every circle such as IB on the disc il is located as far from the axis as each oi some corresponding group of circles l0, one oi each group being on each hour line. If this disc is revolved about the axis 2 each circle in the series l may be brought into register with any one oi" a certain group of circles l0 and indicate the azimuth line that is considered as leading from the axis 2 through the registered circles, toward the sun, or opposite to the direction of the sun rays. The arrow I4 points in the direction in which the sun rays are travelling when they irnpinge upon the earth, or the architectural structure, or other plot under test.

The instrument is operated substantially as follows: If it is desired to know the direction of the solar rays with respect to a meridian and their angular inclination to the horizontal plane on February 22 at 11:00 a. In., L. A. S. T. for some point lying along or relatively close to the parallel of latitude for which the particular instrument was designed-in this case approximately 3730 N., the disc Il is rotated about the axis 2 until the circle denoted February ZZ-October 22 is registered with 39, the only circle on the 11:00 a. m. hour line on sheet l with which it can be registered, see Fig. 3. Arrow I4 is then seen to register about north 19 west on the graduated segment 6. The numeral 39 denotes that the sun rays are travelling in that direction as they approach the surface of the earth at a 39 angle of inclination to the surface of the earth. It will be seen from the readings, that on October 22 at 11:00 a. m., L. A. S. T., the relation ofthe solar rays to a given point on the earth is substantially the same as on February 22 at 11:00 a. m., L. A. S. T. To make similar determinations on any given date the dated circle on disc Il is brought into registry with a circle on the selected hour line on sheet I,

The present invention is not limited to any geographical area. The same general layout would apply to other selected bands of latitude, with instruments appropriately calibrated. By restricting the dates included to twelve, and by restricting the hours included to those shown, and by restricting the use of each instrument to a certain relatively narrow band of latitude, the instrument is kept within convenient size, and multiplicity of registry indices is avoided. The general structure and mode of operation of an instrument with closer time intervals would be substantially the same.

This invention provides a useful instrument for architects and others in lplanning homes, hospitals, schools, and other structures, enabling them to easily predetermine the exact angle at which solar rays would strike any part of the structure at anyhour and day included within the scope of the instrument, without computations or guesswork. In such instances the transparent solarmeter would be laid on the ground or floor plan drawing with the North arrow on base sheet l pointing in substantial alignment with true north on the drawing. The instrument can be moved about to various parts of the drawing and operated as described, keeping the North arrow on sheet i always pointing parallel to true north on the drawing.

If the instrument is to be used independently of a drawing, its `operation is the same, and the North arrow on sheet l is kept pointing in the direction of true north. By such use landscape gardeners can locate greenhouses, growing plots and trees to best advantage. Similarly purchasers of homes can know in advance of the seasons the solar conditions which will affect the home at any time.

i-Iaving thus described this invention and its mode of operation what I claim and desire to secure by Letters il'atent is:

1. A graphic solar instrument comprising a base sheet having depicted thereon a North-Noon index line bisecting the axis of said sheet; graphic east and west protractor graduations on opposite sides of rsaid North-Noon line in concentric relation to said axis; lateral Sunset and Sunrise lines radiating from said axis on the opposite sides of said North-Noon line; designated graphic radial hour lines interspaced on said sheet and dividing the space between said Sunset and Sunrise lines and indicating designated hours or" daylight between said lines; graphic degree indices arranged on said sheet in deviating spaced relation between said axis and said hour lines respectively and progressively indicating the degree angles 0f the solar rays; a date disc pivotal on the said axis of the base sheet and having a solar ray directional graphic index depicted thereon selectively registering with said protractor graduations; and a series of radially alined dated graphic indices on said disc concentric with said axis and alined with said solar ray directional index for selectively indicating in degrees the angular slant of the solar rays on a selected date on said disc registering with a selected index among said graphic degree indices on said sheet.

Z. A graphic solar instrument comprising a base sheet having depicted thereon a graphic North-Noon index line bisecting the axis of said sheet; lateral Sunset and Sunrise lines radiating from said axis on the opposite sides of said North- Noon line; designated grap-hic radial hour lines interspaced on said sheet and dividing the space between said Sunset and Sunrise lines and indicating designated hours of daylight between said unes; graphic degree indices arranged on said :sheetI indeviating spaced relationvbetween .said .axis :and-said Ihour :lines:respectivelyandaprogres- `."sively .indicating .z the.4 degree.. angles ofszthersolar ,.zrays; adate disc :pivotal onisaidsaxisofrthesbase f-rsheet..;andz havingtdepicted thereon asolarrayl; 5.#designated graphic radial hour lines interspaced directional graphic. index; and aafseresfof: radially falined:datedzgraphic; indicesmn zsa'id'f: disc. concentric with said :axis .and alined Wi,t1i..-said.L vsolar .1: .ray directional index,..for.-selectively indicatingfin degrees the angularslant-ofrthe;solarfrayszon a` selected date on said disc registeringlzwith. afseilectedzindexramong saidgraphi'cadegreeiirrdices on asai-d sheet.

` 3; A graphic .solar :instrument :comprisingl a .intransparenttbase sheetxhaving a' circular dialrde-yv 4:platt-3d thereon; a'zgraphic `NortheNoon index line ;.;:-.bisecting theaxisyof .said .l dial; graphic .protractor .r'graduations.. on oppositey sides fofvfsaidiiNorth- @Nonni :lineaxint concentric .relation tossaidf.: axis; f.. sgraphic 1Sunset and Sunrise lineszradiatingffrom, sf'said ..:axis. :beyond the.. peripl'ieryl-'foff` said.; dial; V...designated graphic radiahhour ylines interspaced i :onsaid sheetand. dividingithevspace between said :Sunset vande .Sunrise lines. andv indicating.,desig .graphic degree indices arrangedfonsaid sheet `in deviating spaced relationfbetween :said .axis i and 1 :said hour: lines respectivelyl and :progressively in- ;.fdicatngfthe degreev angles =ofi.theffsolarprays;, a `transparentrdate:disc pivotalonzsaidiaxis onuthel.I .base :sheet land-.having a solainray directional ygraphic index depicted thereon.. and: selectively '.:registeringwith sai-d protractor. graduations; :and a a.- serieslofv radially .alined .progressivelyodated :y graphic indices-.on said .disc :concentric,Withnsaida axis and alined with said solar raydirectional r index, .-for. selectively indicating ..incy degreesV the f.-"angular slantxofthe solar rays-f on alselecteddate on sai-d disc registering With-:selectedaindex f. among-said graphic:` degree .indices-.on said sheet.r f

Y 4.. Agraphic. solar instrument .fcomprisingfaabase "i8 sheet havingcdepictedf thereon a.-North-Noony in-A .a-dex line bisecting the- ,axispt :said sheet; Alateral 'I eSunset s and: Sunrise ,linesiradiating from :said axis f ,sonal the Y 'opposite'r sides of i. said North-Noon line;

., onrsai-d' sheet and -fdividingrthe space .between said .-'rSunset anduSunrise lines .and indicating designated hours of daylight betweeny said.V lines; 1 graphic degree .indices arranged on saidsheet in 10.-?: cleviating spaced relation between .said axis `and ,n..said hour,lines-respectively and progressively inf'dicating the degree angles of.` the solar rays; a date disc pivotal on said axis of the base sheet and :having af-solar ray4 directionalI index depicted 1&15v f'-thereon; and a series :of seven radially. alined Lggraphic date indices on .said disc-concentric with 1-s`aid axis' and `alinedfWithLsai-dsolar ray ydirec- .tiona'1index,` the first-and last otsaid date indices zibeingf graphically'. identified by `vtlne-rrxcnths of 'zofJ-unev-YandDecember respectively, and the interwnrrediate date `indices by the months-of May and .-"July, April and. August, March. and September, @Februaryxandl October, and January and- Novemf-berafi'espectivelm yin succession and `cooperating ,525 with f Said degreeindices for vselectively* indicating @infdegrees/theangular slant of the solar rays on a-selectedV date on saiddisc registering with ase- 'f .lected'index: among ysaid-graphic ydegree indices on ^--^said1sheet andvisible through saiddisc.

."- BEF'ERENCES CITED Thei'fo1lo1vving referenties -areof `record in the C-`-'le of -thisfpatentt `Number Name f Date -`Al`''990,'76l Morse Apr; 25, 1911 M2381 -ott f Jan. 7,1930 40 v1,932,609 f Swartz oct. 31, v1933 ="^2,397063 VanZandt Mai'. 19, 1946 

